.TH IP\-LINK 8 "13 Dec 2012" "iproute2" "Linux"
.SH "NAME"
ip-link \- network device configuration
.SH "SYNOPSIS"
.sp
.ad l
.in +8
.ti -8
.B ip link
.RI  " { " COMMAND " | "
.BR help " }"
.sp

.ti -8
.BI "ip link add"
.RB "[ " link
.IR DEVICE " ]"
.RB "[ " name " ]"
.I NAME
.br
.RB "[ " txqueuelen
.IR PACKETS " ]"
.br
.RB "[ " address
.IR LLADDR " ]"
.RB "[ " broadcast
.IR LLADDR " ]"
.br
.RB "[ " mtu
.IR MTU " ]"
.RB "[ " index
.IR IDX " ]"
.br
.RB "[ " numtxqueues
.IR QUEUE_COUNT " ]"
.RB "[ " numrxqueues
.IR QUEUE_COUNT " ]"
.br
.RB "[ " gso_max_size
.IR BYTES " ]"
.RB "[ " gso_ipv4_max_size
.IR BYTES " ]"
.RB "[ " gso_max_segs
.IR SEGMENTS " ]"
.br
.RB "[ " gro_max_size
.IR BYTES " ]"
.RB "[ " gro_ipv4_max_size
.IR BYTES " ]"
.br
.RB "[ " netns " {"
.IR PID " | " NETNSNAME " | " NETNSFILE " } ]"
.br
.BI type " TYPE"
.RI "[ " ARGS " ]"

.ti -8
.BR "ip link delete " {
.IR DEVICE " | "
.BI "group " GROUP
}
.BI type " TYPE"
.RI "[ " ARGS " ]"

.ti -8
.BR "ip link" " { " set " | " change " } " {
.IR DEVICE " | "
.BI "group " GROUP
}
.br
.RB "[ { " up " | " down " } ]"
.br
.RB "[ " type
.IR "ETYPE TYPE_ARGS" " ]"
.br
.RB "[ " arp " { " on " | " off " } ]"
.br
.RB "[ " dynamic " { " on " | " off " } ]"
.br
.RB "[ " multicast " { " on " | " off " } ]"
.br
.RB "[ " allmulticast " { " on " | " off " } ]"
.br
.RB "[ " promisc " { " on " | " off " } ]"
.br
.RB "[ " protodown " { " on " | " off " } ]"
.br
.RB "[ " protodown_reason
.IR PREASON " { " on " | " off " } ]"
.br
.RB "[ " trailers " { " on " | " off " } ]"
.br
.RB "[ " txqueuelen
.IR PACKETS " ]"
.br
.RB "[ " gso_max_size
.IR BYTES " ]"
.RB "[ " gso_ipv4_max_size
.IR BYTES " ]"
.RB "[ " gso_max_segs
.IR SEGMENTS " ]"
.br
.RB "[ " gro_max_size
.IR BYTES " ]"
.RB "[ " gro_ipv4_max_size
.IR BYTES " ]"
.br
.RB "[ " name
.IR NEWNAME " ]"
.br
.RB "[ " address
.IR LLADDR " ]"
.br
.RB "[ " broadcast
.IR LLADDR " ]"
.br
.RB "[ " mtu
.IR MTU " ]"
.br
.RB "[ " netns " {"
.IR PID " | " NETNSNAME " | " NETNSFILE " } ]"
.br
.RB "[ " link-netnsid
.IR ID " ]"
.br
.RB "[ " alias
.IR NAME  " ]"
.br
.RB "[ " vf
.IR NUM " ["
.B  mac
.IR LLADDR " ]"
.br
.in +9
.RI "[ " VFVLAN-LIST " ]"
.br
.RB "[ " rate
.IR TXRATE " ]"
.br
.RB "[ " max_tx_rate
.IR TXRATE " ]"
.br
.RB "[ " min_tx_rate
.IR TXRATE " ]"
.br
.RB "[ " spoofchk " { " on " | " off " } ]"
.br
.RB "[ " query_rss " { " on " | " off " } ]"
.br
.RB "[ " state " { " auto " | " enable " | " disable " } ]"
.br
.RB "[ " trust " { " on " | " off " } ]"
.br
.RB "[ " node_guid " eui64 ]"
.br
.RB "[ " port_guid " eui64 ] ]"
.br
.in -9
.RB "[ { " xdp " | " xdpgeneric  " | " xdpdrv " | " xdpoffload " } { " off " | "
.br
.in +8
.BR object
.IR FILE
.RB "[ { " section " | " program " } "
.IR NAME " ]"
.RB "[ " verbose " ] |"
.br
.BR pinned
.IR FILE " } ]"
.br
.in -8
.RB "[ " master
.IR DEVICE " ]"
.br
.RB "[ " nomaster " ]"
.br
.RB "[ " vrf
.IR NAME " ]"
.br
.RB "[ " addrgenmode " { " eui64 " | " none " | " stable_secret " | " random " } ]"
.br
.RB "[ " macaddr
.RI "[ " MACADDR " ]"
.br
.in +10
.RB "[ { " flush " | " add " | " del " } "
.IR MACADDR " ]"
.br
.RB "[ " set
.IR MACADDR " ] ]"
.br

.ti -8
.B ip link show
.RI "[ " DEVICE " | "
.B group
.IR GROUP " ] ["
.BR up " ] ["
.B master
.IR DEVICE " ] ["
.B type
.IR ETYPE " ] ["
.B vrf
.IR NAME " ] ["
.BR nomaster " ]"

.ti -8
.B ip link xstats
.BI type " TYPE"
.RI "[ " ARGS " ]"

.ti -8
.B ip link afstats
.RB "[ " dev
.IR DEVICE " ]"

.ti -8
.B ip link help
.RI "[ " TYPE " ]"

.ti -8
.IR TYPE " := [ "
.BR amt " | "
.BR bareudp " |"
.BR bond " | "
.BR bridge " | "
.BR can " | "
.BR dsa " | "
.BR dummy " | "
.BR erspan " |"
.BR geneve " |"
.BR gre " |"
.BR gretap " |"
.BR gtp " |"
.BR hsr " | "
.BR ifb " | "
.BR ip6erspan " |"
.BR ip6gre " |"
.BR ip6gretap " |"
.BR ip6tnl " |"
.BR ipip " |"
.BR ipoib " |"
.BR ipvlan " |"
.BR ipvtap " |"
.BR lowpan " |"
.BR macsec " |"
.BR macvlan  " | "
.BR macvtap  " | "
.BR netdevsim " |"
.BR netkit " |"
.BR nlmon " |"
.BR rmnet " |"
.BR sit " |"
.BR vcan " | "
.BR veth " | "
.BR virt_wifi " |"
.BR vlan " | "
.BR vrf " |"
.BR vti " |"
.BR vxcan " | "
.BR vxlan " |"
.BR xfrm " ]"

.ti -8
.IR ETYPE " := [ " TYPE " |"
.BR bridge_slave " | " bond_slave " ]"

.ti -8
.IR VFVLAN-LIST " := [ "  VFVLAN-LIST " ] " VFVLAN

.ti -8
.IR VFVLAN " := "
.RB "[ " vlan
.IR VLANID " [ "
.B qos
.IR VLAN-QOS " ] ["
.B proto
.IR VLAN-PROTO " ] ]"
.in -8

.ti -8
.BI "ip link property add dev " DEVICE
.RB "[ " altname
.IR NAME " .. ]"

.ti -8
.BI "ip link property del dev " DEVICE
.RB "[ " altname
.IR NAME " .. ]"

.SH "DESCRIPTION"
.SS ip link add - add virtual link

.TP
.BI link " DEVICE "
specifies the physical device to act operate on.

.I NAME
specifies the name of the new virtual device.

.I TYPE
specifies the type of the new device.
.sp
Link types:

.in +8
.BR amt
- Automatic Multicast Tunneling (AMT)
.sp
.BR bareudp
- Bare UDP L3 encapsulation support
.sp
.B bond
- Bonding device
.sp
.B bridge
- Ethernet Bridge device
.sp
.B can
- Controller Area Network
.sp
.B dsa
- Distributed Switch Architecture
.sp
.B dummy
- Dummy network interface
.sp
.BR erspan
- Encapsulated Remote SPAN over GRE and IPv4
.sp
.B geneve
- GEneric NEtwork Virtualization Encapsulation
.sp
.B gre
- Virtual tunnel interface GRE over IPv4
.sp
.BR gretap
- Virtual L2 tunnel interface GRE over IPv4
.sp
.BR gtp
- GPRS Tunneling Protocol
.sp
.B hsr
- High-availability Seamless Redundancy device
.sp
.B ifb
- Intermediate Functional Block device
.sp
.BR ip6erspan
- Encapsulated Remote SPAN over GRE and IPv6
.sp
.BR ip6gre
- Virtual tunnel interface GRE over IPv6
.sp
.BR ip6gretap
- Virtual L2 tunnel interface GRE over IPv6
.sp
.BR ip6tnl
- Virtual tunnel interface IPv4|IPv6 over IPv6
.sp
.BR ipip
- Virtual tunnel interface IPv4 over IPv4
.sp
.B ipoib
- IP over Infiniband device
.sp
.BR ipvlan
- Interface for L3 (IPv6/IPv4) based VLANs
.sp
.BR ipvtap
- Interface for L3 (IPv6/IPv4) based VLANs and TAP
.sp
.BR lowpan
- Interface for 6LoWPAN (IPv6) over IEEE 802.15.4 / Bluetooth
.sp
.BR macsec
- Interface for IEEE 802.1AE MAC Security (MACsec)
.sp
.B macvlan
- Virtual interface base on link layer address (MAC)
.sp
.B macvtap
- Virtual interface based on link layer address (MAC) and TAP.
.sp
.BR netdevsim
- Interface for netdev API tests
.sp
.BR netkit
- BPF-programmable network device
.sp
.BR nlmon
- Netlink monitoring device
.sp
.BR rmnet
- Qualcomm rmnet device
.sp
.BR sit
- Virtual tunnel interface IPv6 over IPv4
.sp
.B vcan
- Virtual Controller Area Network interface
.sp
.B veth
- Virtual ethernet interface
.sp
.BR virt_wifi
- rtnetlink wifi simulation device
.sp
.BR vlan
- 802.1q tagged virtual LAN interface
.sp
.BR vrf
- Interface for L3 VRF domains
.sp
.BR vti
- Virtual tunnel interface
.sp
.B vxcan
- Virtual Controller Area Network tunnel interface
.sp
.BR vxlan
- Virtual eXtended LAN
.sp
.BR xfrm
- Virtual xfrm interface
.sp
.in -8

.TP
.BI numtxqueues " QUEUE_COUNT "
specifies the number of transmit queues for new device.

.TP
.BI numrxqueues " QUEUE_COUNT "
specifies the number of receive queues for new device.

.TP
.BI gso_max_size " BYTES "
specifies the recommended maximum size of a Generic Segment Offload
packet the new device should accept. This is also used to enable BIG
TCP for IPv6 on this device when the size is greater than 65536.

.TP
.BI gso_ipv4_max_size " BYTES "
specifies the recommended maximum size of a IPv4 Generic Segment Offload
packet the new device should accept. This is especially used to enable
BIG TCP for IPv4 on this device by setting to a size greater than 65536.
Note that
.B gso_max_size
needs to be set to a size greater than or equal to
.B gso_ipv4_max_size
to really enable BIG TCP for IPv4.

.TP
.BI gso_max_segs " SEGMENTS "
specifies the recommended maximum number of a Generic Segment Offload
segments the new device should accept.

.TP
.BI gro_max_size " BYTES "
specifies the maximum size of a packet built by GRO stack on this
device. This is also used for BIG TCP to allow the size of a
merged IPv6 GSO packet on this device greater than 65536.

.TP
.BI gro_ipv4_max_size " BYTES "
specifies the maximum size of a IPv4 packet built by GRO stack on this
device. This is especially used for BIG TCP to allow the size of a
merged IPv4 GSO packet on this device greater than 65536.

.TP
.BI index " IDX "
specifies the desired index of the new virtual device. The link
creation fails, if the index is busy.

.TP
.B netns
.RI "{ " PID " | " NETNSNAME " | " NETNSFILE " }"
.br
create the device in the network namespace associated with process
.IR "PID " or
the name
.IR "NETNSNAME " or
the file
.IR "NETNSFILE".

.TP
VLAN Type Support
For a link of type
.I VLAN
the following additional arguments are supported:

.BI "ip link add
.BI link " DEVICE "
.BI name " NAME "
.B "type vlan"
[
.BI protocol " VLAN_PROTO "
]
.BI id " VLANID "
[
.BR reorder_hdr " { " on " | " off " } "
]
[
.BR gvrp " { " on " | " off " } "
]
[
.BR mvrp " { " on " | " off " } "
]
[
.BR loose_binding " { " on " | " off " } "
]
[
.BR bridge_binding " { " on " | " off " } "
]
[
.BI ingress-qos-map " QOS-MAP "
]
[
.BI egress-qos-map " QOS-MAP "
]

.in +8
.sp
.BI protocol " VLAN_PROTO "
- either 802.1Q or 802.1ad.

.BI id " VLANID "
- specifies the VLAN Identifier to use. Note that numbers with a leading " 0 " or " 0x " are interpreted as octal or hexadecimal, respectively.

.BR reorder_hdr " { " on " | " off " } "
- specifies whether ethernet headers are reordered or not (default is
.BR on ")."

.in +4
If
.BR reorder_hdr " is " on
then VLAN header will be not inserted immediately but only before
passing to the physical device (if this device does not support VLAN
offloading), the similar on the RX direction - by default the packet
will be untagged before being received by VLAN device. Reordering
allows one to accelerate tagging on egress and to hide VLAN header on
ingress so the packet looks like regular Ethernet packet, at the same
time it might be confusing for packet capture as the VLAN header does
not exist within the packet.

VLAN offloading can be checked by
.BR ethtool "(8):"
.in +4
.sp
.B ethtool -k
<phy_dev> |
.RB grep " tx-vlan-offload"
.sp
.in -4
where <phy_dev> is the physical device to which VLAN device is bound.
.in -4

.BR gvrp " { " on " | " off " } "
- specifies whether this VLAN should be registered using GARP VLAN
Registration Protocol.

.BR mvrp " { " on " | " off " } "
- specifies whether this VLAN should be registered using Multiple VLAN
Registration Protocol.

.BR loose_binding " { " on " | " off " } "
- specifies whether the VLAN device state is bound to the physical device state.

.BR bridge_binding " { " on " | " off " } "
- specifies whether the VLAN device link state tracks the state of bridge ports
that are members of the VLAN.

.BI ingress-qos-map " QOS-MAP "
- defines a mapping of VLAN header prio field to the Linux internal packet
priority on incoming frames. The format is FROM:TO with multiple mappings
separated by spaces.

.BI egress-qos-map " QOS-MAP "
- defines a mapping of Linux internal packet priority to VLAN header prio field
but for outgoing frames. The format is the same as for ingress-qos-map.
.in +4

Linux packet priority can be set by
.BR iptables "(8)":
.in +4
.sp
.B iptables
-t mangle -A POSTROUTING [...] -j CLASSIFY --set-class 0:4
.sp
.in -4
and this "4" priority can be used in the egress qos mapping to set
VLAN prio "5":
.sp
.in +4
.B ip
link set veth0.10 type vlan egress 4:5
.in -4
.in -4
.in -8

.TP
VXLAN Type Support
For a link of type
.I VXLAN
the following additional arguments are supported:

.BI "ip link add " DEVICE
.BI type " vxlan " id " VNI"
[
.BI dev " PHYS_DEV "
.RB " ] [ { " group " | " remote " } "
.I IPADDR
] [
.B local
.RI "{ "IPADDR " | "any " } "
] [
.BI ttl " TTL "
] [
.BI tos " TOS "
] [
.BI df " DF "
] [
.BI flowlabel " FLOWLABEL "
] [
.BI dstport " PORT "
] [
.BI srcport " MIN MAX "
] [
.RB [ no ] learning
] [
.RB [ no ] proxy
] [
.RB [ no ] rsc
] [
.RB [ no ] l2miss
] [
.RB [ no ] l3miss
] [
.RB [ no ] udpcsum
] [
.RB [ no ] udp6zerocsumtx
] [
.RB [ no ] udp6zerocsumrx
] [
.RB [ no ] localbypass
] [
.BI ageing " SECONDS "
] [
.BI maxaddress " NUMBER "
] [
.RB [ no ] external
] [
.B gbp
] [
.B gpe
] [
.RB [ no ] vnifilter
]

.in +8
.sp
.BI  id " VNI "
- specifies the VXLAN Network Identifier (or VXLAN Segment
Identifier) to use.

.BI dev " PHYS_DEV"
- specifies the physical device to use for tunnel endpoint communication.

.sp
.BI group " IPADDR"
- specifies the multicast IP address to join.
This parameter cannot be specified with the
.B remote
parameter.

.sp
.BI remote " IPADDR"
- specifies the unicast destination IP address to use in outgoing packets
when the destination link layer address is not known in the VXLAN device
forwarding database. This parameter cannot be specified with the
.B group
parameter.

.sp
.BI local " IPADDR"
- specifies the source IP address to use in outgoing packets.

.sp
.BI ttl " TTL"
- specifies the TTL value to use in outgoing packets.

.sp
.BI tos " TOS"
- specifies the TOS value to use in outgoing packets.

.sp
.BI df " DF"
- specifies the usage of the Don't Fragment flag (DF) bit in outgoing packets
with IPv4 headers. The value
.B inherit
causes the bit to be copied from the original IP header. The values
.B unset
and
.B set
cause the bit to be always unset or always set, respectively. By default, the
bit is not set.

.sp
.BI flowlabel " FLOWLABEL"
- specifies the flow label to use in outgoing packets.

.sp
.BI dstport " PORT"
- specifies the UDP destination port to communicate to the remote
  VXLAN tunnel endpoint.

.sp
.BI srcport " MIN MAX"
- specifies the range of port numbers to use as UDP
source ports to communicate to the remote VXLAN tunnel endpoint.

.sp
.RB [ no ] learning
- specifies if unknown source link layer addresses and IP addresses
are entered into the VXLAN device forwarding database.

.sp
.RB [ no ] rsc
- specifies if route short circuit is turned on.

.sp
.RB [ no ] proxy
- specifies ARP proxy is turned on.

.sp
.RB [ no ] l2miss
- specifies if netlink LLADDR miss notifications are generated.

.sp
.RB [ no ] l3miss
- specifies if netlink IP ADDR miss notifications are generated.

.sp
.RB [ no ] udpcsum
- specifies if UDP checksum is calculated for transmitted packets over IPv4.

.sp
.RB [ no ] udp6zerocsumtx
- skip UDP checksum calculation for transmitted packets over IPv6.

.sp
.RB [ no ] udp6zerocsumrx
- allow incoming UDP packets over IPv6 with zero checksum field.

.sp
.RB [ no ] localbypass
- if FDB destination is local, with nolocalbypass set, forward encapsulated
packets to the userspace network stack. If there is a userspace process
listening for these packets, it will have a chance to process them. If
localbypass is active (default), bypass the kernel network stack and
inject the packets into the target VXLAN device, assuming one exists.

.sp
.BI ageing " SECONDS"
- specifies the lifetime in seconds of FDB entries learnt by the kernel.

.sp
.BI maxaddress " NUMBER"
- specifies the maximum number of FDB entries.

.sp
.RB [ no ] external
- specifies whether an external control plane
.RB "(e.g. " "ip route encap" )
or the internal FDB should be used.

.sp
.RB [ no ] vnifilter
- specifies whether the vxlan device is capable of vni filtering. Only works with a vxlan
device with external flag set. once enabled, bridge vni command is used to manage the
vni filtering table on the device. The device can only receive packets with vni's configured
in the vni filtering table.

.sp
.B gbp
- enables the Group Policy extension (VXLAN-GBP).

.in +4
Allows one to transport group policy context across VXLAN network peers.
If enabled, includes the mark of a packet in the VXLAN header for outgoing
packets and fills the packet mark based on the information found in the
VXLAN header for incoming packets.

Format of upper 16 bits of packet mark (flags);

.in +2
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
.br
|-|-|-|-|-|-|-|-|-|D|-|-|A|-|-|-|
.br
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

.B D :=
Don't Learn bit. When set, this bit indicates that the egress
VTEP MUST NOT learn the source address of the encapsulated frame.

.B A :=
Indicates that the group policy has already been applied to
this packet. Policies MUST NOT be applied by devices when the A bit is set.
.in -2

Format of lower 16 bits of packet mark (policy ID):

.in +2
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
.br
|        Group Policy ID        |
.br
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
.in -2

Example:
  iptables -A OUTPUT [...] -j MARK --set-mark 0x800FF

.in -4

.sp
.B gpe
- enables the Generic Protocol extension (VXLAN-GPE). Currently, this is
only supported together with the
.B external
keyword.

.in -8

.TP
VETH, VXCAN Type Support
For a link of types
.I VETH/VXCAN
the following additional arguments are supported:

.BI "ip link add " DEVICE
.BR type " { " veth " | " vxcan " }"
[
.BR peer
.BI "name " NAME
]

.in +8
.sp
.BR peer
.BI "name " NAME
- specifies the virtual pair device name of the
.I VETH/VXCAN
tunnel.

.in -8

.TP
netkit Type Support
For a link of type
.I netkit
the following additional arguments are supported:

.BI "ip link add " DEVICE
.BR type " netkit "
[
.BI mode " MODE "
] [
.I "POLICY "
] [
.BR peer
[
.I "POLICY "
] [
.I "NAME "
] ]

.in +8

.sp
.BI mode " MODE"
- specifies the operation mode of the netkit device with "l3" and "l2"
as possible values. Default option is "l3".

.sp
.I "POLICY"
- specifies the default device policy when no BPF programs are attached
with "forward" and "blackhole" as possible values. Default option is
"forward". Specifying policy before the peer option refers to the primary
device, after the peer option refers to the peer device.

.sp
.I "NAME"
- specifies the device name of the peer device.

.in -8

.TP
IPIP, SIT Type Support
For a link of type
.IR IPIP or SIT
the following additional arguments are supported:

.BI "ip link add " DEVICE
.BR type " { " ipip " | " sit " }"
.BI " remote " ADDR " local " ADDR
[
.BR encap " { " fou " | " gue " | " none " }"
] [
.BR encap-sport " { " \fIPORT " | " auto " }"
] [
.BI "encap-dport " PORT
] [
.RB [ no ] encap-csum
] [
.I " [no]encap-remcsum "
] [
.I " mode " { ip6ip | ipip | mplsip | any } "
] [
.BR external
]

.in +8
.sp
.BI  remote " ADDR "
- specifies the remote address of the tunnel.

.sp
.BI  local " ADDR "
- specifies the fixed local address for tunneled packets.
It must be an address on another interface on this host.

.sp
.BR encap " { " fou " | " gue " | " none " }"
- specifies type of secondary UDP encapsulation. "fou" indicates
Foo-Over-UDP, "gue" indicates Generic UDP Encapsulation.

.sp
.BR encap-sport " { " \fIPORT " | " auto " }"
- specifies the source port in UDP encapsulation.
.IR PORT
indicates the port by number, "auto"
indicates that the port number should be chosen automatically
(the kernel picks a flow based on the flow hash of the
encapsulated packet).

.sp
.RB [ no ] encap-csum
- specifies if UDP checksums are enabled in the secondary
encapsulation.

.sp
.RB [ no ] encap-remcsum
- specifies if Remote Checksum Offload is enabled. This is only
applicable for Generic UDP Encapsulation.

.sp
.BI mode " { ip6ip | ipip | mplsip | any } "
- specifies mode in which device should run. "ip6ip" indicates
IPv6-Over-IPv4, "ipip" indicates "IPv4-Over-IPv4", "mplsip" indicates
MPLS-Over-IPv4, "any" indicates IPv6, IPv4 or MPLS Over IPv4. Supported for
SIT where the default is "ip6ip" and IPIP where the default is "ipip".
IPv6-Over-IPv4 is not supported for IPIP.

.sp
.BR external
- make this tunnel externally controlled
.RB "(e.g. " "ip route encap" ).

.in -8
.TP
GRE Type Support
For a link of type
.IR GRE " or " GRETAP
the following additional arguments are supported:

.BI "ip link add " DEVICE
.BR type " { " gre " | " gretap " }"
.BI " remote " ADDR " local " ADDR
[
.RB [ no ] "" [ i | o ] seq
] [
.RB [ i | o ] key
.I KEY
|
.BR no [ i | o ] key
] [
.RB [ no ] "" [ i | o ] csum
] [
.BI ttl " TTL "
] [
.BI tos " TOS "
] [
.RB [ no ] pmtudisc
] [
.RB [ no ] ignore-df
] [
.BI dev " PHYS_DEV "
] [
.BR encap " { " fou " | " gue " | " none " }"
] [
.BR encap-sport " { " \fIPORT " | " auto " }"
] [
.BI "encap-dport " PORT
] [
.RB [ no ] encap-csum
] [
.RB [ no ] encap-remcsum
] [
.BR external
]

.in +8
.sp
.BI  remote " ADDR "
- specifies the remote address of the tunnel.

.sp
.BI  local " ADDR "
- specifies the fixed local address for tunneled packets.
It must be an address on another interface on this host.

.sp
.RB  [ no ] "" [ i | o ] seq
- serialize packets.
The
.B oseq
flag enables sequencing of outgoing packets.
The
.B iseq
flag requires that all input packets are serialized.

.sp
.RB [ i | o ] key
.I KEY
|
.BR no [ i | o ] key
- use keyed GRE with key
.IR KEY ". "KEY
is either a number or an IPv4 address-like dotted quad.
The
.B key
parameter specifies the same key to use in both directions.
The
.BR ikey " and " okey
parameters specify different keys for input and output.

.sp
.RB  [ no ] "" [ i | o ] csum
- generate/require checksums for tunneled packets.
The
.B ocsum
flag calculates checksums for outgoing packets.
The
.B icsum
flag requires that all input packets have the correct
checksum. The
.B csum
flag is equivalent to the combination
.B "icsum ocsum" .

.sp
.BI ttl " TTL"
- specifies the TTL value to use in outgoing packets.

.sp
.BI tos " TOS"
- specifies the TOS value to use in outgoing packets.

.sp
.RB [ no ] pmtudisc
- enables/disables Path MTU Discovery on this tunnel.
It is enabled by default. Note that a fixed ttl is incompatible
with this option: tunneling with a fixed ttl always makes pmtu
discovery.

.sp
.RB [ no ] ignore-df
- enables/disables IPv4 DF suppression on this tunnel.
Normally datagrams that exceed the MTU will be fragmented; the presence
of the DF flag inhibits this, resulting instead in an ICMP Unreachable
(Fragmentation Required) message.  Enabling this attribute causes the
DF flag to be ignored.

.sp
.BI dev " PHYS_DEV"
- specifies the physical device to use for tunnel endpoint communication.

.sp
.BR encap " { " fou " | " gue " | " none " }"
- specifies type of secondary UDP encapsulation. "fou" indicates
Foo-Over-UDP, "gue" indicates Generic UDP Encapsulation.

.sp
.BR encap-sport " { " \fIPORT " | " auto " }"
- specifies the source port in UDP encapsulation.
.IR PORT
indicates the port by number, "auto"
indicates that the port number should be chosen automatically
(the kernel picks a flow based on the flow hash of the
encapsulated packet).

.sp
.RB [ no ] encap-csum
- specifies if UDP checksums are enabled in the secondary
encapsulation.

.sp
.RB [ no ] encap-remcsum
- specifies if Remote Checksum Offload is enabled. This is only
applicable for Generic UDP Encapsulation.

.sp
.BR external
- make this tunnel externally controlled
.RB "(e.g. " "ip route encap" ).

.in -8

.TP
IP6GRE/IP6GRETAP Type Support
For a link of type
.I IP6GRE/IP6GRETAP
the following additional arguments are supported:

.BI "ip link add " DEVICE
.BR type " { " ip6gre " | " ip6gretap " }"
.BI remote " ADDR " local " ADDR"
[
.RB [ no ] "" [ i | o ] seq
] [
.RB [ i | o ] key
.I KEY
|
.BR no [ i | o ] key
] [
.RB [ no ] "" [ i | o ] csum
] [
.BI hoplimit " TTL "
] [
.BI encaplimit " ELIM "
] [
.BI tclass " TCLASS "
] [
.BI flowlabel " FLOWLABEL "
] [
.BI "dscp inherit"
] [
.BI "[no]allow-localremote"
] [
.BI dev " PHYS_DEV "
] [
.RB external
]

.in +8
.sp
.BI  remote " ADDR "
- specifies the remote IPv6 address of the tunnel.

.sp
.BI  local " ADDR "
- specifies the fixed local IPv6 address for tunneled packets.
It must be an address on another interface on this host.

.sp
.RB  [ no ] "" [ i | o ] seq
- serialize packets.
The
.B oseq
flag enables sequencing of outgoing packets.
The
.B iseq
flag requires that all input packets are serialized.

.sp
.RB [ i | o ] key
.I KEY
|
.BR no [ i | o ] key
- use keyed GRE with key
.IR KEY ". "KEY
is either a number or an IPv4 address-like dotted quad.
The
.B key
parameter specifies the same key to use in both directions.
The
.BR ikey " and " okey
parameters specify different keys for input and output.

.sp
.RB  [ no ] "" [ i | o ] csum
- generate/require checksums for tunneled packets.
The
.B ocsum
flag calculates checksums for outgoing packets.
The
.B icsum
flag requires that all input packets have the correct
checksum. The
.B csum
flag is equivalent to the combination
.BR "icsum ocsum" .

.sp
.BI  hoplimit " TTL"
- specifies Hop Limit value to use in outgoing packets.

.sp
.BI  encaplimit " ELIM"
- specifies a fixed encapsulation limit. Default is 4.

.sp
.BI  flowlabel " FLOWLABEL"
- specifies a fixed flowlabel.

.sp
.BI  [no]allow-localremote
- specifies whether to allow remote endpoint to have an address configured on
local host.

.sp
.BI  tclass " TCLASS"
- specifies the traffic class field on
tunneled packets, which can be specified as either a two-digit
hex value (e.g. c0) or a predefined string (e.g. internet).
The value
.B inherit
causes the field to be copied from the original IP header. The
values
.BI "inherit/" STRING
or
.BI "inherit/" 00 ".." ff
will set the field to
.I STRING
or
.IR 00 ".." ff
when tunneling non-IP packets. The default value is 00.

.sp
.RB external
- make this tunnel externally controlled (or not, which is the default).
In the kernel, this is referred to as collect metadata mode.  This flag is
mutually exclusive with the
.BR remote ,
.BR local ,
.BR seq ,
.BR key,
.BR csum,
.BR hoplimit,
.BR encaplimit,
.BR flowlabel " and " tclass
options.

.in -8

.TP
IPoIB Type Support
For a link of type
.I IPoIB
the following additional arguments are supported:

.BI "ip link add " DEVICE " name " NAME
.BR "type ipoib " [ " pkey \fIPKEY" " ] [ " mode " \fIMODE \fR]"

.in +8
.sp
.BI  pkey " PKEY "
- specifies the IB P-Key to use.

.BI  mode " MODE "
- specifies the mode (datagram or connected) to use.

.TP
ERSPAN Type Support
For a link of type
.I ERSPAN/IP6ERSPAN
the following additional arguments are supported:

.BI "ip link add " DEVICE
.BR type " { " erspan " | " ip6erspan " }"
.BI remote " ADDR " local " ADDR " seq
.RB key
.I KEY
.BR erspan_ver " \fIversion "
[
.BR erspan " \fIIDX "
] [
.BR erspan_dir " { " \fIingress " | " \fIegress " }"
] [
.BR erspan_hwid " \fIhwid "
] [
.BI "[no]allow-localremote"
] [
.RB external
]

.in +8
.sp
.BI  remote " ADDR "
- specifies the remote address of the tunnel.

.sp
.BI  local " ADDR "
- specifies the fixed local address for tunneled packets.
It must be an address on another interface on this host.

.sp
.BR erspan_ver " \fIversion "
- specifies the ERSPAN version number.
.IR version
indicates the ERSPAN version to be created: 0 for version 0 type I,
1 for version 1 (type II) or 2 for version 2 (type III).

.sp
.BR erspan " \fIIDX "
- specifies the ERSPAN v1 index field.
.IR IDX
indicates a 20 bit index/port number associated with the ERSPAN
traffic's source port and direction.

.sp
.BR erspan_dir " { " \fIingress " | " \fIegress " }"
- specifies the ERSPAN v2 mirrored traffic's direction.

.sp
.BR erspan_hwid " \fIhwid "
- an unique identifier of an ERSPAN v2 engine within a system.
.IR hwid
is a 6-bit value for users to configure.

.sp
.BI  [no]allow-localremote
- specifies whether to allow remote endpoint to have an address configured on
local host.

.sp
.BR external
- make this tunnel externally controlled (or not, which is the default).
In the kernel, this is referred to as collect metadata mode.  This flag is
mutually exclusive with the
.BR remote ,
.BR local ,
.BR erspan_ver ,
.BR erspan ,
.BR erspan_dir " and " erspan_hwid
options.

.in -8

.TP
GENEVE Type Support
For a link of type
.I GENEVE
the following additional arguments are supported:

.BI "ip link add " DEVICE
.BI type " geneve " id " VNI " remote " IPADDR"
[
.BI ttl " TTL "
] [
.BI tos " TOS "
] [
.BI df " DF "
] [
.BI flowlabel " FLOWLABEL "
] [
.BI dstport " PORT"
] [
.RB [ no ] external
] [
.RB [ no ] udpcsum
] [
.RB [ no ] udp6zerocsumtx
] [
.RB [ no ] udp6zerocsumrx
] [
.B innerprotoinherit
]

.in +8
.sp
.BI  id " VNI "
- specifies the Virtual Network Identifier to use.

.sp
.BI remote " IPADDR"
- specifies the unicast destination IP address to use in outgoing packets.

.sp
.BI ttl " TTL"
- specifies the TTL value to use in outgoing packets. "0" or "auto" means
use whatever default value, "inherit" means inherit the inner protocol's
ttl. Default option is "0".

.sp
.BI tos " TOS"
- specifies the TOS value to use in outgoing packets.

.sp
.BI df " DF"
- specifies the usage of the Don't Fragment flag (DF) bit in outgoing packets
with IPv4 headers. The value
.B inherit
causes the bit to be copied from the original IP header. The values
.B unset
and
.B set
cause the bit to be always unset or always set, respectively. By default, the
bit is not set.

.sp
.BI flowlabel " FLOWLABEL"
- specifies the flow label to use in outgoing packets.

.sp
.BI dstport " PORT"
- select a destination port other than the default of 6081.

.sp
.RB [ no ] external
- make this tunnel externally controlled (or not, which is the default). This
flag is mutually exclusive with the
.BR id ,
.BR remote ,
.BR ttl ,
.BR tos " and " flowlabel
options.

.sp
.RB [ no ] udpcsum
- specifies if UDP checksum is calculated for transmitted packets over IPv4.

.sp
.RB [ no ] udp6zerocsumtx
- skip UDP checksum calculation for transmitted packets over IPv6.

.sp
.RB [ no ] udp6zerocsumrx
- allow incoming UDP packets over IPv6 with zero checksum field.

.sp
.B innerprotoinherit
- use IPv4/IPv6 as inner protocol instead of Ethernet.

.in -8

.TP
Bareudp Type Support
For a link of type
.I Bareudp
the following additional arguments are supported:

.BI "ip link add " DEVICE
.BI type " bareudp " dstport " PORT " ethertype " PROTO"
[
.BI srcportmin " PORT "
] [
.RB [ no ] multiproto
]

.in +8
.sp
.BI dstport " PORT"
- specifies the destination port for the UDP tunnel.

.sp
.BI ethertype " PROTO"
- specifies the ethertype of the L3 protocol being tunnelled.
.B ethertype
can be given as plain Ethernet protocol number or using the protocol name
("ipv4", "ipv6", "mpls_uc", etc.).

.sp
.BI srcportmin " PORT"
- selects the lowest value of the UDP tunnel source port range.

.sp
.RB [ no ] multiproto
- activates support for protocols similar to the one
.RB "specified by " ethertype .
When
.B ethertype
is "mpls_uc" (that is, unicast MPLS), this allows the tunnel to also handle
multicast MPLS.
When
.B ethertype
is "ipv4", this allows the tunnel to also handle IPv6. This option is disabled
by default.

.TP
AMT Type Support
For a link of type
.I AMT
the following additional arguments are supported:

.BI "ip link add " DEVICE
.BI type " AMT " discovery " IPADDR " mode " { " gateway " | " relay " } "
.BI local " IPADDR " dev " PHYS_DEV " [
.BI relay_port " PORT " ]
[
.BI gateway_port " PORT " ]
[
.BI max_tunnels " NUMBER "
]

.in +8
.sp
.BI discovery " IPADDR"
- specifies the unicast discovery IP address to use to find remote IP address.

.BR mode " { " gateway " | " relay " } "
- specifies the role of AMT, Gateway or Relay

.BI local " IPADDR "
- specifies the source IP address to use in outgoing packets.

.BI dev " PHYS_DEV "
- specifies the underlying physical interface from which transform traffic
is sent and received.

.BI relay_port " PORT "
- specifies the UDP Relay port to communicate to the Relay.

.BI gateway_port " PORT "
- specifies the UDP Gateway port to communicate to the Gateway.

.BI max_tunnels " NUMBER "
- specifies the maximum number of tunnels.

.in -8

.TP
MACVLAN and MACVTAP Type Support
For a link of type
.I MACVLAN
or
.I MACVTAP
the following additional arguments are supported:

.BI "ip link add link " DEVICE " name " NAME
.BR type " { " macvlan " | " macvtap " } "
.BR mode " { " private " | " vepa " | " bridge " | " passthru
.RB " [ " nopromisc " ] | " source " [ " nodst " ] } "
.RB " [ " bcqueuelen " { " LENGTH " } ] "
.RB " [ " bclim " " LIMIT " ] "

.in +8
.sp
.BR type " { " macvlan " | " macvtap " } "
- specifies the link type to use.
.BR macvlan " creates just a virtual interface, while "
.BR macvtap " in addition creates a character device "
.BR /dev/tapX " to be used just like a " tuntap " device."

.B mode private
- Do not allow communication between
.B macvlan
instances on the same physical interface, even if the external switch supports
hairpin mode.

.B mode vepa
- Virtual Ethernet Port Aggregator mode. Data from one
.B macvlan
instance to the other on the same physical interface is transmitted over the
physical interface. Either the attached switch needs to support hairpin mode,
or there must be a TCP/IP router forwarding the packets in order to allow
communication. This is the default mode.

.B mode bridge
- In bridge mode, all endpoints are directly connected to each other,
communication is not redirected through the physical interface's peer.

.BR mode " " passthru " [ " nopromisc " ] "
- This mode gives more power to a single endpoint, usually in
.BR macvtap " mode. It is not allowed for more than one endpoint on the same "
physical interface. All traffic will be forwarded to this endpoint, allowing
virtio guests to change MAC address or set promiscuous mode in order to bridge
the interface or create vlan interfaces on top of it. By default, this mode
forces the underlying interface into promiscuous mode. Passing the
.BR nopromisc " flag prevents this, so the promisc flag may be controlled "
using standard tools.

.BR mode " " source " [ " nodst " ] "
- allows one to set a list of allowed mac address, which is used to match
against source mac address from received frames on underlying interface. This
allows creating mac based VLAN associations, instead of standard port or tag
based. The feature is useful to deploy 802.1x mac based behavior,
where drivers of underlying interfaces doesn't allows that. By default, packets
are also considered (duplicated) for destination-based MACVLAN. Passing the
.BR nodst " flag stops matching packets from also going through the "
destination-based flow.

.BR bcqueuelen " { " LENGTH " } "
- Set the length of the RX queue used to process broadcast and multicast packets.
.BR LENGTH " must be a positive integer in the range [0-4294967295]."
Setting a length of 0 will effectively drop all broadcast/multicast traffic.
If not specified the macvlan driver default (1000) is used.
Note that all macvlans that share the same underlying device are using the same
.RB "queue. The parameter here is a " request ", the actual queue length used"
will be the maximum length that any macvlan interface has requested.
When listing device parameters both the bcqueuelen parameter
as well as the actual used bcqueuelen are listed to better help
the user understand the setting.

.BR bclim " " LIMIT
- Set the threshold for broadcast queueing.
.BR LIMIT " must be a 32-bit integer."
Setting this to -1 disables broadcast queueing altogether.  Otherwise
a multicast address will be queued as broadcast if the number of devices
using it is greater than the given value.
.in -8

.TP
High-availability Seamless Redundancy (HSR) Support
For a link of type
.I HSR
the following additional arguments are supported:

.BI "ip link add link " DEVICE " name " NAME " type hsr"
.BI slave1 " SLAVE1-IF " slave2 " SLAVE2-IF "
.RB [ " supervision"
.IR ADDR-BYTE " ] ["
.BR version " { " 0 " | " 1 " } ["
.BR proto " { " 0 " | " 1 " } ]"

.in +8
.sp
.BR type " hsr "
- specifies the link type to use, here HSR.

.BI slave1 " SLAVE1-IF "
- Specifies the physical device used for the first of the two ring ports.

.BI slave2 " SLAVE2-IF "
- Specifies the physical device used for the second of the two ring ports.

.BI supervision " ADDR-BYTE"
- The last byte of the multicast address used for HSR supervision frames.
Default option is "0", possible values 0-255.

.BR version " { " 0 " | " 1 " }"
- Selects the protocol version of the interface. Default option is "0", which
corresponds to the 2010 version of the HSR standard. Option "1" activates the
2012 version.

.BR proto " { " 0 " | " 1 " }"
- Selects the protocol at the interface. Default option is "0", which
corresponds to the HSR standard. Option "1" activates the Parallel
Redundancy Protocol (PRP).
.
.in -8

.TP
BRIDGE Type Support
For a link of type
.I BRIDGE
the following additional arguments are supported:

.BI "ip link add " DEVICE " type bridge "
[
.BI ageing_time " AGEING_TIME "
] [
.BI group_fwd_mask " MASK "
] [
.BI group_address " ADDRESS "
] [
.BI forward_delay " FORWARD_DELAY "
] [
.BI hello_time " HELLO_TIME "
] [
.BI max_age " MAX_AGE "
] [
.BI stp_state " STP_STATE "
] [
.BI priority " PRIORITY "
] [
.BI no_linklocal_learn " NO_LINKLOCAL_LEARN "
] [
.BI fdb_max_learned " FDB_MAX_LEARNED "
] [
.BI vlan_filtering " VLAN_FILTERING "
] [
.BI vlan_protocol " VLAN_PROTOCOL "
] [
.BI vlan_default_pvid " VLAN_DEFAULT_PVID "
] [
.BI vlan_stats_enabled " VLAN_STATS_ENABLED "
] [
.BI vlan_stats_per_port " VLAN_STATS_PER_PORT "
] [
.BI mcast_snooping " MULTICAST_SNOOPING "
] [
.BI mcast_vlan_snooping " MULTICAST_VLAN_SNOOPING "
] [
.BI mcast_router " MULTICAST_ROUTER "
] [
.BI mcast_query_use_ifaddr " MCAST_QUERY_USE_IFADDR "
] [
.BI mcast_querier " MULTICAST_QUERIER "
] [
.BI mcast_hash_elasticity " HASH_ELASTICITY "
] [
.BI mcast_hash_max " HASH_MAX "
] [
.BI mcast_last_member_count " LAST_MEMBER_COUNT "
] [
.BI mcast_startup_query_count " STARTUP_QUERY_COUNT "
] [
.BI mcast_last_member_interval " LAST_MEMBER_INTERVAL "
] [
.BI mcast_membership_interval " MEMBERSHIP_INTERVAL "
] [
.BI mcast_querier_interval " QUERIER_INTERVAL "
] [
.BI mcast_query_interval " QUERY_INTERVAL "
] [
.BI mcast_query_response_interval " QUERY_RESPONSE_INTERVAL "
] [
.BI mcast_startup_query_interval " STARTUP_QUERY_INTERVAL "
] [
.BI mcast_stats_enabled " MCAST_STATS_ENABLED "
] [
.BI mcast_igmp_version " IGMP_VERSION "
] [
.BI mcast_mld_version " MLD_VERSION "
] [
.BI nf_call_iptables " NF_CALL_IPTABLES "
] [
.BI nf_call_ip6tables " NF_CALL_IP6TABLES "
] [
.BI nf_call_arptables " NF_CALL_ARPTABLES "
]

.in +8
.sp
.BI ageing_time " AGEING_TIME "
- configure the bridge's FDB entries ageing time, ie the number of
seconds a MAC address will be kept in the FDB after a packet has been
received from that address. after this time has passed, entries are
cleaned up.

.BI group_fwd_mask " MASK "
- set the group forward mask. This is the bitmask that is applied to
decide whether to forward incoming frames destined to link-local
addresses, ie addresses of the form 01:80:C2:00:00:0X (defaults to 0,
ie the bridge does not forward any link-local frames).

.BI group_address " ADDRESS "
- set the MAC address of the multicast group this bridge uses for STP.
The address must be a link-local address in standard Ethernet MAC
address format, ie an address of the form 01:80:C2:00:00:0X, with X
 in [0, 4..f].

.BI forward_delay " FORWARD_DELAY "
- set the forwarding delay in seconds, ie the time spent in LISTENING
state (before moving to LEARNING) and in LEARNING state (before
moving to FORWARDING). Only relevant if STP is enabled. Valid values
are between 2 and 30.

.BI hello_time " HELLO_TIME "
- set the time in seconds between hello packets sent by the bridge,
when it is a root bridge or a designated bridges.
Only relevant if STP is enabled. Valid values are between 1 and 10.

.BI max_age " MAX_AGE "
- set the hello packet timeout, ie the time in seconds until another
bridge in the spanning tree is assumed to be dead, after reception of
its last hello message. Only relevant if STP is enabled. Valid values
are between 6 and 40.

.BI stp_state " STP_STATE "
- turn spanning tree protocol on
.RI ( STP_STATE " > 0) "
or off
.RI ( STP_STATE " == 0). "
for this bridge.

.BI priority " PRIORITY "
- set this bridge's spanning tree priority, used during STP root
bridge election.
.I PRIORITY
is a 16bit unsigned integer.

.BI no_linklocal_learn " NO_LINKLOCAL_LEARN "
- turn link-local learning on
.RI ( NO_LINKLOCAL_LEARN " == 0) "
or off
.RI ( NO_LINKLOCAL_LEARN " > 0). "
When disabled, the bridge will not learn from link-local frames (default:
enabled).

.BI fdb_max_learned " FDB_MAX_LEARNED "
- set the maximum number of learned FDB entries. If
.RI ( FDB_MAX_LEARNED " == 0) "
the feature is disabled. Default is
.BR 0 .
.I FDB_MAX_LEARNED
is a 32bit unsigned integer.

.BI vlan_filtering " VLAN_FILTERING "
- turn VLAN filtering on
.RI ( VLAN_FILTERING " > 0) "
or off
.RI ( VLAN_FILTERING " == 0). "
When disabled, the bridge will not consider the VLAN tag when handling packets.

.BR vlan_protocol " { " 802.1Q " | " 802.1ad " } "
- set the protocol used for VLAN filtering.

.BI vlan_default_pvid " VLAN_DEFAULT_PVID "
- set the default PVID (native/untagged VLAN ID) for this bridge.

.BI vlan_stats_enabled " VLAN_STATS_ENABLED "
- enable
.RI ( VLAN_STATS_ENABLED " == 1) "
or disable
.RI ( VLAN_STATS_ENABLED " == 0) "
per-VLAN stats accounting.

.BI vlan_stats_per_port " VLAN_STATS_PER_PORT "
- enable
.RI ( VLAN_STATS_PER_PORT " == 1) "
or disable
.RI ( VLAN_STATS_PER_PORT " == 0) "
per-VLAN per-port stats accounting. Can be changed only when there are no port VLANs configured.

.BI mcast_snooping " MULTICAST_SNOOPING "
- turn multicast snooping on
.RI ( MULTICAST_SNOOPING " > 0) "
or off
.RI ( MULTICAST_SNOOPING " == 0). "

.BI mcast_vlan_snooping " MULTICAST_VLAN_SNOOPING "
- turn multicast VLAN snooping on
.RI ( MULTICAST_VLAN_SNOOPING " > 0) "
or off
.RI ( MULTICAST_VLAN_SNOOPING " == 0). "

.BI mcast_router " MULTICAST_ROUTER "
- set bridge's multicast router if IGMP snooping is enabled.
.I MULTICAST_ROUTER
is an integer value having the following meaning:
.in +8
.sp
.B 0
- disabled.

.B 1
- automatic (queried).

.B 2
- permanently enabled.
.in -8

.BI mcast_query_use_ifaddr " MCAST_QUERY_USE_IFADDR "
- whether to use the bridge's own IP address as source address for IGMP queries
.RI ( MCAST_QUERY_USE_IFADDR " > 0) "
or the default of 0.0.0.0
.RI ( MCAST_QUERY_USE_IFADDR " == 0). "

.BI mcast_querier " MULTICAST_QUERIER "
- enable
.RI ( MULTICAST_QUERIER " > 0) "
or disable
.RI ( MULTICAST_QUERIER " == 0) "
IGMP querier, ie sending of multicast queries by the bridge (default: disabled).

.BI mcast_querier_interval " QUERIER_INTERVAL "
- interval between queries sent by other routers. if no queries are seen
after this delay has passed, the bridge will start to send its own queries
(as if
.BI mcast_querier
was enabled).

.BI mcast_hash_elasticity " HASH_ELASTICITY "
- set multicast database hash elasticity, ie the maximum chain length
in the multicast hash table (defaults to 4).

.BI mcast_hash_max " HASH_MAX "
- set maximum size of multicast hash table (defaults to 512,
value must be a power of 2).

.BI mcast_last_member_count " LAST_MEMBER_COUNT "
- set multicast last member count, ie the number of queries the bridge
will send before stopping forwarding a multicast group after a "leave"
message has been received (defaults to 2).

.BI mcast_last_member_interval " LAST_MEMBER_INTERVAL "
- interval between queries to find remaining members of a group,
after a "leave" message is received.

.BI mcast_startup_query_count " STARTUP_QUERY_COUNT "
- set the number of IGMP queries to send during startup phase (defaults to 2).

.BI mcast_startup_query_interval " STARTUP_QUERY_INTERVAL "
- interval between queries in the startup phase.

.BI mcast_query_interval " QUERY_INTERVAL "
- interval between queries sent by the bridge after the end of the
startup phase.

.BI mcast_query_response_interval " QUERY_RESPONSE_INTERVAL "
- set the Max Response Time/Maximum Response Delay for IGMP/MLD
queries sent by the bridge.

.BI mcast_membership_interval " MEMBERSHIP_INTERVAL "
- delay after which the bridge will leave a group,
if no membership reports for this group are received.

.BI mcast_stats_enabled " MCAST_STATS_ENABLED "
- enable
.RI ( MCAST_STATS_ENABLED " > 0) "
or disable
.RI ( MCAST_STATS_ENABLED " == 0) "
multicast (IGMP/MLD) stats accounting.

.BI mcast_igmp_version " IGMP_VERSION "
- set the IGMP version.

.BI mcast_mld_version " MLD_VERSION "
- set the MLD version.

.BI nf_call_iptables " NF_CALL_IPTABLES "
- enable
.RI ( NF_CALL_IPTABLES " > 0) "
or disable
.RI ( NF_CALL_IPTABLES " == 0) "
iptables hooks on the bridge.

.BI nf_call_ip6tables " NF_CALL_IP6TABLES "
- enable
.RI ( NF_CALL_IP6TABLES " > 0) "
or disable
.RI ( NF_CALL_IP6TABLES " == 0) "
ip6tables hooks on the bridge.

.BI nf_call_arptables " NF_CALL_ARPTABLES "
- enable
.RI ( NF_CALL_ARPTABLES " > 0) "
or disable
.RI ( NF_CALL_ARPTABLES " == 0) "
arptables hooks on the bridge.


.in -8

.TP
MACsec Type Support
For a link of type
.I MACsec
the following additional arguments are supported:

.BI "ip link add link " DEVICE " name " NAME " type macsec"
[ [
.BI address " <lladdr>"
]
.BI port " PORT"
|
.BI sci " SCI"
] [
.BI cipher " CIPHER_SUITE"
] [
.BR icvlen " { "
.IR 8..16 " } ] ["
.BR encrypt " {"
.BR on " | " off " } ] [ "
.BR send_sci " { " on " | " off " } ] ["
.BR end_station " { " on " | " off " } ] ["
.BR scb " { " on " | " off " } ] ["
.BR protect " { " on " | " off " } ] ["
.BR replay " { " on " | " off " }"
.BR window " { "
.IR 0..2^32-1 " } ] ["
.BR validate " { " strict " | " check " | " disabled " } ] ["
.BR encodingsa " { "
.IR 0..3 " } ]"

.in +8
.sp
.BI address " <lladdr> "
- sets the system identifier component of secure channel for this MACsec device.

.sp
.BI port " PORT "
- sets the port number component of secure channel for this MACsec
device, in a range from 1 to 65535 inclusive. Numbers with a leading "
0 " or " 0x " are interpreted as octal and hexadecimal, respectively.

.sp
.BI sci " SCI "
- sets the secure channel identifier for this MACsec device.
.I SCI
is a 64bit wide number in hexadecimal format.

.sp
.BI cipher " CIPHER_SUITE "
- defines the cipher suite to use.

.sp
.BI icvlen " LENGTH "
- sets the length of the Integrity Check Value (ICV).

.sp
.BR "encrypt on " or " encrypt off"
- switches between authenticated encryption, or authenticity mode only.

.sp
.BR "send_sci on " or " send_sci off"
- specifies whether the SCI is included in every packet,
or only when it is necessary.

.sp
.BR "end_station on " or " end_station off"
- sets the End Station bit.

.sp
.BR "scb on " or " scb off"
- sets the Single Copy Broadcast bit.

.sp
.BR "protect on " or " protect off"
- enables MACsec protection on the device.

.sp
.BR "replay on " or " replay off"
- enables replay protection on the device.

.in +8

.sp
.BI window " SIZE "
- sets the size of the replay window.

.in -8

.sp
.BR "validate strict " or " validate check " or " validate disabled"
- sets the validation mode on the device.

.sp
.BI encodingsa " AN "
- sets the active secure association for transmission.

.in -8

.TP
VRF Type Support
For a link of type
.I VRF
the following additional arguments are supported:

.BI "ip link add " DEVICE " type vrf table " TABLE

.in +8
.sp
.BR table " table id associated with VRF device"

.in -8

.TP
RMNET Type Support
For a link of type
.I RMNET
the following additional arguments are supported:

.BI "ip link add link " DEVICE " name " NAME " type rmnet mux_id " MUXID

.in +8
.sp
.BI mux_id " MUXID "
- specifies the mux identifier for the rmnet device, possible values 1-254.

.in -8

.TP
XFRM Type Support
For a link of type
.I XFRM
the following additional arguments are supported:

.BI "ip link add " DEVICE " type xfrm dev " PHYS_DEV " [ if_id " IF_ID " ]"
.BR "[ external ]"

.in +8
.sp
.BI dev " PHYS_DEV "
- specifies the underlying physical interface from which transform traffic is sent and received.

.sp
.BI if_id " IF-ID "
- specifies the hexadecimal lookup key used to send traffic to and from specific xfrm
policies. Policies must be configured with the same key. If not set, the key defaults to
0 and will match any policies which similarly do not have a lookup key configuration.

.sp
.BI external
- make this device externally controlled. This flag is mutually exclusive with the
.BR dev " and " if_id
options.

.in -8

.TP
GTP Type Support
For a link of type
.I GTP
the following additional arguments are supported:

.BI "ip link add " DEVICE " type gtp role " ROLE " hsize " HSIZE

.in +8
.sp
.BI role " ROLE "
- specifies the role of the GTP device, either sgsn or ggsn

.sp
.BI hsize " HSIZE "
- specifies size of the hashtable which stores PDP contexts

.sp
.BI restart_count " RESTART_COUNT "
- GTP instance restart counter

.in -8

.SS ip link delete - delete virtual link

.TP
.BI dev " DEVICE "
specifies the virtual device to act operate on.

.TP
.BI group " GROUP "
specifies the group of virtual links to delete. Group 0 is not allowed to be
deleted since it is the default group.

.TP
.BI type " TYPE "
specifies the type of the device.

.SS ip link set - change device attributes

.PP
.B Warning:
If multiple parameter changes are requested,
.B ip
aborts immediately after any of the changes have failed.
This is the only case when
.B ip
can move the system to an unpredictable state. The solution
is to avoid changing several parameters with one
.B ip link set
call.
The modifier
.B change
is equivalent to
.BR "set" .


.TP
.BI dev " DEVICE "
.I DEVICE
specifies network device to operate on. When configuring SR-IOV
Virtual Function (VF) devices, this keyword should specify the
associated Physical Function (PF) device.

.TP
.BI group " GROUP "
.I GROUP
has a dual role: If both group and dev are present, then move the device to the
specified group. If only a group is specified, then the command operates on
all devices in that group.

.TP
.BR up " and " down
change the state of the device to
.B UP
or
.BR "DOWN" .

.TP
.BR "arp on " or " arp off"
change the
.B NOARP
flag on the device.

.TP
.BR "multicast on " or " multicast off"
change the
.B MULTICAST
flag on the device.

.TP
.BR "allmulticast on " or " allmulticast off"
change the
.B ALLMULTI
flag on the device. When enabled, instructs network driver to retrieve all
multicast packets from the network to the kernel for further processing.

.TP
.BR "promisc on " or " promisc off"
change the
.B PROMISC
flag on the device. When enabled, activates promiscuous operation of the
network device.

.TP
.BR "trailers on " or " trailers off"
change the
.B NOTRAILERS
flag on the device,
.B NOT
used by the Linux and exists for BSD compatibility.

.TP
.BR "protodown on " or " protodown off"
change the
.B PROTODOWN
state on the device. Indicates that a protocol error has been detected
on the port. Switch drivers can react to this error by doing a phys
down on the switch port.

.TP
.BR "protodown_reason PREASON on " or " off"
set
.B PROTODOWN
reasons on the device. protodown reason bit names can be enumerated under
/etc/iproute2/protodown_reasons.d/. possible reasons bits 0-31

.TP
.BR "dynamic on " or " dynamic off"
change the
.B DYNAMIC
flag on the device. Indicates that address can change when interface
goes down (currently
.B NOT
used by the Linux).

.TP
.BI name " NAME"
change the name of the device. This operation is not
recommended if the device is running or has some addresses
already configured.

.TP
.BI txqueuelen " NUMBER"
.TP
.BI txqlen " NUMBER"
change the transmit queue length of the device.

.TP
.BI mtu " NUMBER"
change the
.I MTU
of the device.

.TP
.BI address " LLADDRESS"
change the station address of the interface.

.TP
.BI broadcast " LLADDRESS"
.TP
.BI brd " LLADDRESS"
.TP
.BI peer " LLADDRESS"
change the link layer broadcast address or the peer address when
the interface is
.IR "POINTOPOINT" .

.TP
.B netns
.RI "{ " PID " | " NETNSNAME " | " NETNSFILE " }"
.br
move the device to the network namespace associated with process
.IR "PID " or
the name
.IR "NETNSNAME " or
the file
.IR "NETNSFILE".

Some devices are not allowed to change network namespace: loopback, bridge,
wireless. These are network namespace local devices. In such case
.B ip
tool will return "Invalid argument" error. It is possible to find out
if device is local to a single network namespace by checking
.B netns-local
flag in the output of the
.BR ethtool ":"

.in +8
.B ethtool -k
.I DEVICE
.in -8

To change network namespace for wireless devices the
.B iw
tool can be used. But it allows one to change network namespace only for
physical devices and by process
.IR PID .

.TP
.BI alias " NAME"
give the device a symbolic name for easy reference.

.TP
.BI group " GROUP"
specify the group the device belongs to.
The available groups are listed in
.BR @SYSCONF_USR_DIR@/group " or " @SYSCONF_ETC_DIR@/group
(has precedence if exists).

.TP
.BI vf " NUM"
specify a Virtual Function device to be configured. The associated PF device
must be specified using the
.B dev
parameter.

.in +8
.BI mac " LLADDRESS"
- change the station address for the specified VF. The
.B vf
parameter must be specified.

.sp
.BI vlan " VLANID"
- change the assigned VLAN for the specified VF. When specified, all traffic
sent from the VF will be tagged with the specified VLAN ID. Incoming traffic
will be filtered for the specified VLAN ID, and will have all VLAN tags
stripped before being passed to the VF. Setting this parameter to 0 disables
VLAN tagging and filtering. The
.B vf
parameter must be specified.

.sp
.BI qos " VLAN-QOS"
- assign VLAN QOS (priority) bits for the VLAN tag. When specified, all VLAN
tags transmitted by the VF will include the specified priority bits in the
VLAN tag. If not specified, the value is assumed to be 0. Both the
.B vf
and
.B vlan
parameters must be specified. Setting both
.B vlan
and
.B qos
as 0 disables VLAN tagging and filtering for the VF.

.sp
.BI proto " VLAN-PROTO"
- assign VLAN PROTOCOL for the VLAN tag, either 802.1Q or 802.1ad.
Setting to 802.1ad, all traffic sent from the VF will be tagged with
VLAN S-Tag.  Incoming traffic will have VLAN S-Tags stripped before
being passed to the VF.  Setting to 802.1ad also enables an option to
concatenate another VLAN tag, so both S-TAG and C-TAG will be
inserted/stripped for outgoing/incoming traffic, respectively.  If not
specified, the value is assumed to be 802.1Q. Both the
.B vf
and
.B vlan
parameters must be specified.

.sp
.BI rate " TXRATE"
-- change the allowed transmit bandwidth, in Mbps, for the specified VF.
Setting this parameter to 0 disables rate limiting.
.B vf
parameter must be specified.
Please use new API
.B "max_tx_rate"
option instead.

.sp
.BI max_tx_rate " TXRATE"
- change the allowed maximum transmit bandwidth, in Mbps, for the
specified VF.  Setting this parameter to 0 disables rate limiting.
.B vf
parameter must be specified.

.sp
.BI min_tx_rate " TXRATE"
- change the allowed minimum transmit bandwidth, in Mbps, for the specified VF.
Minimum TXRATE should be always <= Maximum TXRATE.
Setting this parameter to 0 disables rate limiting.
.B vf
parameter must be specified.

.sp
.BI spoofchk " on|off"
- turn packet spoof checking on or off for the specified VF.
.sp
.BI query_rss " on|off"
- toggle the ability of querying the RSS configuration of a specific
VF. VF RSS information like RSS hash key may be considered sensitive
on some devices where this information is shared between VF and PF
and thus its querying may be prohibited by default.
.sp
.BI state " auto|enable|disable"
- set the virtual link state as seen by the specified VF. Setting to
auto means a reflection of the PF link state, enable lets the VF to
communicate with other VFs on this host even if the PF link state is
down, disable causes the HW to drop any packets sent by the VF.
.sp
.BI trust " on|off"
- trust the specified VF user. This enables that VF user can set a
specific feature which may impact security and/or
performance. (e.g. VF multicast promiscuous mode)
.sp
.BI node_guid " eui64"
- configure node GUID for Infiniband VFs.
.sp
.BI port_guid " eui64"
- configure port GUID for Infiniband VFs.
.in -8

.TP
.B xdp object "|" pinned "|" off
set (or unset) a XDP ("eXpress Data Path") BPF program to run on every
packet at driver level.
.B ip link
output will indicate a
.B xdp
flag for the networking device. If the driver does not have native XDP
support, the kernel will fall back to a slower, driver-independent "generic"
XDP variant. The
.B ip link
output will in that case indicate
.B xdpgeneric
instead of
.B xdp
only. If the driver does have native XDP support, but the program is
loaded under
.B xdpgeneric object "|" pinned
then the kernel will use the generic XDP variant instead of the native one.
.B xdpdrv
has the opposite effect of requestsing that the automatic fallback to the
generic XDP variant be disabled and in case driver is not XDP-capable error
should be returned.
.B xdpdrv
also disables hardware offloads.
.B xdpoffload
in ip link output indicates that the program has been offloaded to hardware
and can also be used to request the "offload" mode, much like
.B xdpgeneric
it forces program to be installed specifically in HW/FW of the apater.

.B off
(or
.B none
)
- Detaches any currently attached XDP/BPF program from the given device.

.BI object " FILE "
- Attaches a XDP/BPF program to the given device. The
.I FILE
points to a BPF ELF file (f.e. generated by LLVM) that contains the BPF
program code, map specifications, etc. If a XDP/BPF program is already
attached to the given device, an error will be thrown. If no XDP/BPF
program is currently attached, the device supports XDP and the program
from the BPF ELF file passes the kernel verifier, then it will be attached
to the device. If the option
.I -force
is passed to
.B ip
then any prior attached XDP/BPF program will be atomically overridden and
no error will be thrown in this case. If no
.B section
option is passed, then the default section name ("prog") will be assumed,
otherwise the provided section name will be used. If no
.B verbose
option is passed, then a verifier log will only be dumped on load error.
See also
.B EXAMPLES
section for usage examples.

.BI section " NAME "
- Specifies a section name that contains the BPF program code. If no section
name is specified, the default one ("prog") will be used. This option is
to be passed with the
.B object
option.

.BI program " NAME "
- Specifies the BPF program name that need to be attached. When the program
name is specified, the section name parameter will be ignored. This option
only works when iproute2 build with
.B libbpf
support.

.BI verbose
- Act in verbose mode. For example, even in case of success, this will
print the verifier log in case a program was loaded from a BPF ELF file.

.BI pinned " FILE "
- Attaches a XDP/BPF program to the given device. The
.I FILE
points to an already pinned BPF program in the BPF file system. The option
.B section
doesn't apply here, but otherwise semantics are the same as with the option
.B object
described already.

.TP
.BI master " DEVICE"
set master device of the device (enslave device).

.TP
.BI nomaster
unset master device of the device (release device).

.TP
.BI addrgenmode " eui64|none|stable_secret|random"
set the IPv6 address generation mode

.I eui64
- use a Modified EUI-64 format interface identifier

.I none
- disable automatic address generation

.I stable_secret
- generate the interface identifier based on a preset
  /proc/sys/net/ipv6/conf/{default,DEVICE}/stable_secret

.I random
- like stable_secret, but auto-generate a new random secret if none is set

.TP
.BR "link-netnsid "
set peer netnsid for a cross-netns interface

.TP
.BI type " ETYPE TYPE_ARGS"
Change type-specific settings. For a list of supported types and arguments refer
to the description of
.B "ip link add"
above. In addition to that, it is possible to manipulate settings to slave
devices:

.TP
Bridge Slave Support
For a link with master
.B bridge
the following additional arguments are supported:

.B "ip link set type bridge_slave"
[
.B fdb_flush
] [
.BI state " STATE"
] [
.BI priority " PRIO"
] [
.BI cost " COST"
] [
.BR guard " { " on " | " off " }"
] [
.BR hairpin " { " on " | " off " }"
] [
.BR fastleave " { " on " | " off " }"
] [
.BR root_block " { " on " | " off " }"
] [
.BR learning " { " on " | " off " }"
] [
.BR flood " { " on " | " off " }"
] [
.BR proxy_arp " { " on " | " off " }"
] [
.BR proxy_arp_wifi " { " on " | " off " }"
] [
.BI mcast_router " MULTICAST_ROUTER"
] [
.BR mcast_fast_leave " { " on " | " off "}"
] [
.BR bcast_flood " { " on " | " off " }"
] [
.BR mcast_flood " { " on " | " off " }"
] [
.BR mcast_to_unicast " { " on " | " off " }"
] [
.BR group_fwd_mask " MASK"
] [
.BR neigh_suppress " { " on " | " off " }"
] [
.BR neigh_vlan_suppress " { " on " | " off " }"
] [
.BR vlan_tunnel " { " on " | " off " }"
] [
.BR isolated " { " on " | " off " }"
] [
.BR locked " { " on " | " off " }"
] [
.BR mab " { " on " | " off " }"
] [
.BR backup_port " DEVICE"
] [
.BR nobackup_port
] [
.BR backup_nhid " NHID"
]

.in +8
.sp
.B fdb_flush
- flush bridge slave's fdb dynamic entries.

.BI state " STATE"
- Set port state.
.I STATE
is a number representing the following states:
.BR 0 " (disabled),"
.BR 1 " (listening),"
.BR 2 " (learning),"
.BR 3 " (forwarding),"
.BR 4 " (blocking)."

.BI priority " PRIO"
- set port priority (allowed values are between 0 and 63, inclusively).

.BI cost " COST"
- set port cost (allowed values are between 1 and 65535, inclusively).

.BR guard " { " on " | " off " }"
- block incoming BPDU packets on this port.

.BR hairpin " { " on " | " off " }"
- enable hairpin mode on this port. This will allow incoming packets on this
port to be reflected back.

.BR fastleave " { " on " | " off " }"
- enable multicast fast leave on this port.

.BR root_block " { " on " | " off " }"
- block this port from becoming the bridge's root port.

.BR learning " { " on " | " off " }"
- allow MAC address learning on this port.

.BR flood " { " on " | " off " }"
- open the flood gates on this port, i.e. forward all unicast frames to this
port also. Requires
.BR proxy_arp " and " proxy_arp_wifi
to be turned off.

.BR proxy_arp " { " on " | " off " }"
- enable proxy ARP on this port.

.BR proxy_arp_wifi " { " on " | " off " }"
- enable proxy ARP on this port which meets extended requirements by IEEE
802.11 and Hotspot 2.0 specifications.

.BI mcast_router " MULTICAST_ROUTER"
- configure this port for having multicast routers attached. A port with a
multicast router will receive all multicast traffic.
.I MULTICAST_ROUTER
may be either
.B 0
to disable multicast routers on this port,
.B 1
to let the system detect the presence of routers (this is the default),
.B 2
to permanently enable multicast traffic forwarding on this port or
.B 3
to enable multicast routers temporarily on this port, not depending on incoming
queries.

.BR mcast_fast_leave " { " on " | " off " }"
- this is a synonym to the
.B fastleave
option above.

.BR bcast_flood " { " on " | " off " }"
- controls flooding of broadcast traffic on the given port. By default
this flag is on.

.BR mcast_flood " { " on " | " off " }"
- controls whether a given port will flood multicast traffic for which
there is no MDB entry. By default this flag is on.

.BR mcast_to_unicast " { " on " | " off " }"
- controls whether a given port will replicate packets using unicast
instead of multicast. By default this flag is off.

.BI group_fwd_mask " MASK "
- set the group forward mask. This is the bitmask that is applied to
decide whether to forward incoming frames destined to link-local
addresses, ie addresses of the form 01:80:C2:00:00:0X (defaults to
0, ie the bridge does not forward any link-local frames coming on
this port).

.BR neigh_suppress " { " on " | " off " }"
- controls whether neigh discovery (arp and nd) proxy and suppression
is enabled on the port. By default this flag is off.

.BR neigh_vlan_suppress " { " on " | " off " }"
- controls whether per-VLAN neigh discovery (arp and nd) proxy and suppression
is enabled on the port. When on, the \fBbridge link\fR option
\fBneigh_suppress\fR has no effect and the per-VLAN state is set using the
\fBbridge vlan\fR option \fBneigh_suppress\fR. By default this flag is off.

.BR vlan_tunnel " { " on " | " off " }"
- controls whether vlan to tunnel mapping is enabled on the port. By
default this flag is off.

.BR locked " { " on " | " off " }"
- controls whether a port is locked or not. When locked, non-link-local frames
received through the port are dropped unless an FDB entry with the MAC source
address points to the port. The common use case is IEEE 802.1X where hosts can
authenticate themselves by exchanging EAPOL frames with an authenticator. After
authentication is complete, the user space control plane can install a matching
FDB entry to allow traffic from the host to be forwarded by the bridge. When
learning is enabled on a locked port, the
.B no_linklocal_learn
bridge option needs to be on to prevent the bridge from learning from received
EAPOL frames. By default this flag is off.

.BR mab " { " on " | " off " }"
- controls whether MAC Authentication Bypass (MAB) is enabled on the port or
not.  MAB can only be enabled on a locked port that has learning enabled. When
enabled, FDB entries are learned from received traffic and have the "locked"
FDB flag set. The flag can only be set by the kernel and it indicates that the
FDB entry cannot be used to authenticate the corresponding host. User space can
decide to authenticate the host by replacing the FDB entry and clearing the
"locked" FDB flag. Locked FDB entries can roam to unlocked (authorized) ports
in which case the "locked" flag is cleared. FDB entries cannot roam to locked
ports regardless of MAB being enabled or not. Therefore, locked FDB entries are
only created if an FDB entry with the given {MAC, VID} does not already exist.
This behavior prevents unauthenticated hosts from disrupting traffic destined
to already authenticated hosts. Locked FDB entries act like regular dynamic
entries with respect to forwarding and aging. By default this flag is off.

.BI backup_port " DEVICE"
- if the port loses carrier all traffic will be redirected to the
configured backup port

.BR nobackup_port
- removes the currently configured backup port

.BI backup_nhid " NHID"
- the FDB nexthop object ID (see \fBip-nexthop\fR(8)) to attach to packets
being redirected to a backup port that has VLAN tunnel mapping enabled (via the
\fBvlan_tunnel\fR option). Setting a value of 0 (default) has the effect of not
attaching any ID.

.in -8

.TP
Bonding Slave Support
For a link with master
.B bond
the following additional arguments are supported:

.B "ip link set type bond_slave"
[
.BI queue_id " ID"
] [
.BI prio " PRIORITY"
]

.in +8
.sp
.BI queue_id " ID"
- set the slave's queue ID (a 16bit unsigned value).

.sp
.BI prio " PRIORITY"
- set the slave's priority for active slave re-selection during failover
(a 32bit signed value). This option only valid for active-backup(1),
balance-tlb (5) and balance-alb (6) mode.

.in -8

.TP
MACVLAN and MACVTAP Support
Modify list of allowed macaddr for link in source mode.

.B "ip link set type { macvlan | macvap } "
[
.BI macaddr " " "" COMMAND " " MACADDR " ..."
]

Commands:
.in +8
.B add
- add MACADDR to allowed list
.sp
.B set
- replace allowed list
.sp
.B del
- remove MACADDR from allowed list
.sp
.B flush
- flush whole allowed list
.sp
.in -8

Update the broadcast/multicast queue length.

.B "ip link set type { macvlan | macvap } "
[
.BI bcqueuelen "  LENGTH  "
]
[
.BI bclim " LIMIT "
]

.in +8
.BI bcqueuelen " LENGTH "
- Set the length of the RX queue used to process broadcast and multicast packets.
.IR LENGTH " must be a positive integer in the range [0-4294967295]."
Setting a length of 0 will effectively drop all broadcast/multicast traffic.
If not specified the macvlan driver default (1000) is used.
Note that all macvlans that share the same underlying device are using the same
.RB "queue. The parameter here is a " request ", the actual queue length used"
will be the maximum length that any macvlan interface has requested.
When listing device parameters both the bcqueuelen parameter
as well as the actual used bcqueuelen are listed to better help
the user understand the setting.

.BI bclim " LIMIT "
- Set the threshold for broadcast queueing.
.IR LIMIT " must be a 32-bit integer."
Setting this to -1 disables broadcast queueing altogether.  Otherwise
a multicast address will be queued as broadcast if the number of devices
using it is greater than the given value.
.in -8

.TP
DSA user port support
For a link having the DSA user port type, the following additional arguments
are supported:

.B "ip link set type dsa "
[
.BI conduit " DEVICE"
]

.in +8
.sp
.BI conduit " DEVICE"
- change the DSA conduit (host network interface) responsible for handling the
locally terminated traffic for the given DSA switch user port. For a
description of which network interfaces are suitable for serving as conduit
interfaces of this user port, please see
https://docs.kernel.org/networking/dsa/configuration.html#affinity-of-user-ports-to-cpu-ports
as well as what is supported by the driver in use.

.sp
.BI master " DEVICE"
- this is a synonym for "conduit".

.in -8

.SS  ip link show - display device attributes

.TP
.BI dev " NAME " (default)
.I NAME
specifies the network device to show.

.TP
.BI group " GROUP "
.I GROUP
specifies what group of devices to show.

.TP
.B up
only display running interfaces.

.TP
.BI master " DEVICE "
.I DEVICE
specifies the master device which enslaves devices to show.

.TP
.BI vrf " NAME "
.I NAME
specifies the VRF which enslaves devices to show.

.TP
.BI type " TYPE "
.I TYPE
specifies the type of devices to show.

Note that the type name is not checked against the list of supported types -
instead it is sent as-is to the kernel. Later it is used to filter the returned
interface list by comparing it with the relevant attribute in case the kernel
didn't filter already. Therefore any string is accepted, but may lead to empty
output.

.TP
.B nomaster
only show devices with no master

.SS  ip link xstats - display extended statistics

.TP
.BI type " TYPE "
.I TYPE
specifies the type of devices to display extended statistics for.

.SS  ip link afstats - display address-family specific statistics

.TP
.BI dev " DEVICE "
.I DEVICE
specifies the device to display address-family statistics for.

.SS  ip link help - display help

.PP
.I "TYPE"
specifies which help of link type to display.

.SS
.I GROUP
may be a number or a string from
.BR @SYSCONF_USR_DIR@/group " or " @SYSCONF_ETC_DIR@/group
which can be manually filled and has precedence if exists.

.SH "EXAMPLES"
.PP
ip link show
.RS 4
Shows the state of all network interfaces on the system.
.RE
.PP
ip link show type bridge
.RS 4
Shows the bridge devices.
.RE
.PP
ip link show type vlan
.RS 4
Shows the vlan devices.
.RE
.PP
ip link show master br0
.RS 4
Shows devices enslaved by br0
.RE
.PP
ip link set dev ppp0 mtu 1400
.RS 4
Change the MTU the ppp0 device.
.RE
.PP
ip link add link eth0 name eth0.10 type vlan id 10
.RS 4
Creates a new vlan device eth0.10 on device eth0.
.RE
.PP
ip link delete dev eth0.10
.RS 4
Removes vlan device.
.RE

ip link help gre
.RS 4
Display help for the gre link type.
.RE
.PP
ip link add name tun1 type ipip remote 192.168.1.1
local 192.168.1.2 ttl 225 encap gue encap-sport auto
encap-dport 5555 encap-csum encap-remcsum
.RS 4
Creates an IPIP that is encapsulated with Generic UDP Encapsulation,
and the outer UDP checksum and remote checksum offload are enabled.
.RE
.PP
ip link set dev eth0 xdp obj prog.o
.RS 4
Attaches a XDP/BPF program to device eth0, where the program is
located in prog.o, section "prog" (default section). In case a
XDP/BPF program is already attached, throw an error.
.RE
.PP
ip -force link set dev eth0 xdp obj prog.o sec foo
.RS 4
Attaches a XDP/BPF program to device eth0, where the program is
located in prog.o, section "foo". In case a XDP/BPF program is
already attached, it will be overridden by the new one.
.RE
.PP
ip -force link set dev eth0 xdp pinned /sys/fs/bpf/foo
.RS 4
Attaches a XDP/BPF program to device eth0, where the program was
previously pinned as an object node into BPF file system under
name foo.
.RE
.PP
ip link set dev eth0 xdp off
.RS 4
If a XDP/BPF program is attached on device eth0, detach it and
effectively turn off XDP for device eth0.
.RE
.PP
ip link add link wpan0 lowpan0 type lowpan
.RS 4
Creates a 6LoWPAN interface named lowpan0 on the underlying
IEEE 802.15.4 device wpan0.
.RE
.PP
ip link add dev ip6erspan11 type ip6erspan seq key 102
local fc00:100::2 remote fc00:100::1
erspan_ver 2 erspan_dir ingress erspan_hwid 17
.RS 4
Creates a IP6ERSPAN version 2 interface named ip6erspan00.
.RE
.PP
ip link set dev swp0 type dsa conduit eth1
.RS 4
Changes the conduit interface of the swp0 user port to eth1.
.RE

.SH SEE ALSO
.br
.BR ip (8),
.BR ip-netns (8),
.BR ethtool (8),
.BR iptables (8)

.SH AUTHOR
Original Manpage by Michail Litvak <mci@owl.openwall.com>
